Power Storage Device

This nonprovisional application is based on Japanese Patent Application No. 2024-173179 filed on Oct. 2, 2024 with the Japan Patent Office, the entire contents of which are hereby incorporated by reference.

The present disclosure relates to a power storage device.

As a conventional power storage device, Japanese Patent Laying-Open No. 2023-046671 discloses a structure in which a power storage stack disposed inside a lower case is cooled by using a cooler disposed below the lower case. The lower case is provided with a plurality of protrusions protruding downward and spaced apart from each other in a front-rear direction, and a protection panel for protecting the cooler is fixed to the plurality of protrusions.

In the configuration disclosed in Japanese Patent Laying-Open No. 2023-046671, for example, when an upward impact is applied from below due to road surface interference or the like to a portion of the protection panel located between protrusions adjacent to each other, this portion may deform so as to warp upward. Such a situation causes a concern that the deformed protection panel (a cover member) may come into contact with the cooler, so that an external force may be applied to the cooler.

The present disclosure has been made in view of the above-described problems, and an object thereof is to provide a power storage device in which, when an external force directed upward is applied from below, the external force can be suppressed from being applied to a cooler.

A power storage device according to the present disclosure includes: a lower case having a bottom wall portion; a cooler disposed below the bottom wall portion; and a cover member to cover the cooler from below. The bottom wall portion includes a first protrusion protruding downward. The cover member includes a second protrusion that faces the first protrusion in an upward-downward direction and protrudes upward. The first protrusion protrudes more downward than a lower surface of the cooler.

According to the above-described configuration, when an upward external force is applied to the cover member due to road surface interference or the like, the second protrusion bumps into the first protrusion, to thereby suppress deformation of the cover member. At this time, since the first protrusion protrudes more downward than the lower surface of the cooler, it is possible to suppress the cover member from bumping into the cooler, so that it is possible to suppress an external force from being applied to the cooler.

In the power storage device according to the present disclosure, the cooler may have a hole penetrating therethrough in the upward-downward direction. The first protrusion may be disposed inside the hole.

According to the above-described configuration, the first protrusion can be efficiently provided in a limited space.

The power storage device according to the present disclosure further includes: an electric device; and a bracket to fix the electric device to the bottom wall portion. The electric device may be fixed to the bracket at a first fixing position and a second fixing position that are spaced apart from each other in a front-rear direction orthogonal to the upward-downward direction. The electric device may have a portion spaced apart from the bracket between the first fixing position and the second fixing position.

According to the above-described configuration, since the electric device is spaced apart from the bracket between the first fixing position and the second fixing position, it is possible to suppress the bottom portion deformed by road surface interference or the like from bumping into the electric device, so that it is possible to suppress an impact from being applied to the electric device.

In the power storage device according to the present disclosure, a heat conduction member may be disposed between at least a part of a bottom surface of the electric device and the bottom wall portion.

According to the above-described configuration, the electric device and the cooler are in thermal contact with each other with the bottom portion and the heat conduction member being interposed therebetween, so that the electric device can be cooled.

The power storage device according to the present disclosure may include a first reinforcing member and a second reinforcing member that are spaced apart from each other in a front-rear direction orthogonal to the upward-downward direction and fixed to a lower surface of the bottom wall portion. The cover member may be fixed to the first reinforcing member and the second reinforcing member. The first protrusion and the second protrusion may be disposed between the first reinforcing member and the second reinforcing member in the front-rear direction.

According to the above-described configuration, the cover member can be deformed such that, with respect to fixing points as fulcrums at which the cover member is fixed to the first and second reinforcing members, a portion of the cover member that is located at a central portion between these fixing points is directed upward. Since the first and second protrusions are disposed between the first and second reinforcing members in the front-rear direction, it is possible to effectively suppress the cover member from being deformed to warp upward.

A power storage device according to the present disclosure may include: an electric device; and a first reinforcing member and a second reinforcing member that are spaced apart from each other in a front-rear direction orthogonal to the upward-downward direction and fixed to a lower surface of the bottom wall portion. The cover member may include: a first fixed portion fixed to the first reinforcing member; and a second fixed portion fixed to the second reinforcing member. The first fixed portion may be located below a front end portion of the electric device, and the second fixed portion may be located below a rear end portion of the electric device or located behind and below the rear end portion.

According to the above-described configuration, the cover member can be deformed such that, with respect to the first and second fixed portions as fulcrums at which the cover member is fixed to the first and second reinforcing members, a portion of the cover member that is located at a central portion between the first and second fixed portions is directed upward. Further, also between the front end portion and the rear end portion of the electric device, the bottom wall portion can be deformed so as to follow the deformation of the cover member.

The foregoing and other objects, features, aspects, and advantages of the present disclosure will become apparent from the following detailed description of the present disclosure when taken in conjunction with the accompanying drawings.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. In the embodiments described below, the same or common portions are denoted by the same reference characters in the drawings, and the description thereof will not be repeated.

1 FIG. 1 FIG. 1 is an exploded perspective view of a power storage device according to an embodiment. Referring to, a power storage deviceaccording to the present embodiment will be hereinafter described.

1 1 21 1 Power storage deviceis mounted in a vehicle such as a hybrid electric vehicle, a plug-in hybrid electric vehicle, or a battery electric vehicle. Power storage deviceis mounted, for example, below a floor panel provided in a vehicle. A ceiling portion of an upper member(described later) of power storage devicemay function as a floor panel.

1 FIG. 1 10 20 25 29 30 40 50 60 80 As shown in, power storage deviceincludes a power storage unit, an accommodation case, a plurality of reinforcing members, a plurality of cross members, a cooler, a heat conduction member, a cover member, an inner heat conduction layer, and an electric device.

10 11 11 1 1 Power storage unitincludes a plurality of power storage modules. The plurality of power storage modulesare arranged in a first direction (a DRdirection) orthogonal to an upward-downward direction. The first direction is, for example, parallel to a front-rear direction of a vehicle in the state in which power storage deviceis mounted in the vehicle.

11 12 2 1 Each of the plurality of power storage modulesincludes a plurality of power storage cellsarranged in a second direction (a DRdirection) orthogonal to the upward-downward direction and the first direction. The second direction is parallel to a width direction of the vehicle in the above-mentioned state in which power storage deviceis mounted in the vehicle.

12 12 12 12 Power storage cellis, for example, a secondary battery such as a nickel-metal hydride battery or a lithium ion battery. Power storage cellhas, for example, a rectangular shape. Power storage cellmay be made of a liquid electrolyte or a solid electrolyte. Further, power storage cellmay be a unit capacitor configured to be able to store electric power.

20 10 80 20 21 22 Accommodation caseaccommodates power storage unitand electric device. Accommodation caseincludes upper memberand a lower case.

21 21 21 22 10 21 Upper memberhas a substantially box shape opened downward. Upper membermay be made of a metal material. In order to achieve weight reduction, upper membermay be made of a resin material. When the peripheral wall portion of lower caseis higher than power storage unit, upper membermay have a plate shape.

22 22 22 Lower casehas a substantially box shape opened upward. Lower caseis made of a metal material. Lower casepreferably has excellent thermal conductivity.

22 23 11 23 60 23 23 23 23 11 23 11 a b a b Lower casehas a bottom wall portion. The plurality of power storage modulesare disposed on bottom wall portionwith inner heat conduction layerbeing interposed therebetween. Bottom wall portionhas an inner surfaceand an outer surfacearranged in the upward-downward direction. Inner surfacefaces upward and faces the plurality of power storage modules. Outer surfacefaces downward and faces the side opposite to the side on which the plurality of power storage modulesare located.

29 22 29 23 29 29 80 11 11 29 a The plurality of cross membersare disposed inside lower caseat a distance from each other in the first direction (a front-rear direction). The plurality of cross membersare disposed on the inner surfaceside. The plurality of cross membersextend in the second direction. The plurality of cross membersdefine a region in which electric deviceand power storage modulesare disposed. For example, two power storage modulesare disposed between two cross membersadjacent to each other in the front-rear direction.

11 29 29 23 12 Two power storage modulesdisposed between two cross membersadjacent to each other are fixed to cross membersor bottom wall portionby fixing members (not shown) disposed on both end sides in the direction in which power storage cellsare arranged.

60 11 23 60 11 23 11 23 60 a a Inner heat conduction layeris disposed between each power storage moduleand inner surface. Inner heat conduction layerfunctions also as an adhesive layer to adhesively fix each power storage moduleto bottom wall portion. Each power storage moduleis in thermal contact with inner surfacevia inner heat conduction layer.

60 60 Inner heat conduction layeris formed of a resin member having thermal conductivity. Examples of inner heat conduction layerapplicable in this case can be an adhesive containing a silicone resin, an acrylic resin, a urethane resin, an epoxy resin, or the like.

30 11 30 61 62 61 11 62 Coolerserves as a device for cooling the plurality of power storage modules. A refrigerant flow path through which refrigerant flows is provided inside cooler. The refrigerant flow path is connected to a refrigerant introduction portionand a refrigerant discharge portion. The refrigerant having been introduced into the refrigerant flow path through refrigerant introduction portioncools the plurality of power storage modulesand is then discharged through refrigerant discharge portion.

30 23 22 30 30 2 FIG. Cooleris disposed below bottom wall portionof lower case. Cooleris made of a metal material such as aluminum. The detailed structure of coolerwill be described later with reference to.

40 23 23 30 11 30 40 23 60 40 23 30 40 b Heat conduction memberis disposed between outer surfaceof bottom wall portionand cooler. The plurality of power storage modulesare cooled by coolervia heat conduction member, bottom wall portion, and inner heat conduction layer. Heat conduction memberfunctions also as an adhesive layer that adheres bottom wall portionand coolerto each other. Examples of heat conduction memberapplicable in this case can be an adhesive containing a silicone resin, an acrylic resin, a urethane resin, an epoxy resin, or the like.

25 23 23 25 25 30 b The plurality of reinforcing membersare fixed to outer surfaceof bottom wall portion. The plurality of reinforcing membersare arranged in the first direction. The plurality of reinforcing membersare disposed so as not to interfere with cooler.

50 23 50 23 50 30 23 50 30 50 25 50 Cover membercovers bottom wall portionfrom below in the state in which a gap is formed between cover memberand bottom wall portion. Specifically, cover membercovers, from below, coolerdisposed below bottom wall portion. Cover memberprotects cooler. Cover memberis fixed to the plurality of reinforcing members. Cover memberis made of a metal material.

80 10 80 10 80 80 80 23 90 3 FIG. Electric deviceis arranged side by side with power storage unitin the first direction. Electric deviceis disposed on one side in the first direction with respect to power storage unit. Electric deviceincludes, for example, a junction box. Electric devicemay also include an electronic control unit. As will be described later, electric deviceis fixed to bottom wall portionwith a bracket(see).

2 FIG. 2 FIG. 30 23 is a perspective view of the lower case to which the cooler according to the embodiment is fixed, as viewed from the bottom surface side. The detailed structure of coolerand the shape of bottom wall portionwill be hereinafter described with reference to.

30 31 32 33 31 32 33 Coolerincludes a pair of holding portions, a plurality of cooling portions, and a front portion. The above-mentioned refrigerant flow path is routed inside the pair of holding portions, the plurality of cooling portions, and front portion.

31 31 31 32 The pair of holding portionsextend in the first direction. The pair of holding portionsare disposed apart from each other in the second direction. The pair of holding portionshold the plurality of cooling portions.

32 11 32 11 32 31 32 The plurality of cooling portionsare disposed at positions corresponding to the plurality of power storage moduleson a one-to-one basis. The number of the plurality of cooling portionsprovided in this case coincides with the number of the plurality of power storage modules. Each of the plurality of cooling portionsis provided to connect the pair of holding portionsin the second direction. The plurality of cooling portionsare arranged side by side at a distance from each other in the first direction.

32 32 32 32 32 32 32 32 33 32 32 The plurality of cooling portionsinclude a plurality of cooling portionsA, a plurality of cooling portionsB, and a cooling portionC. Cooling portionC is located on one side in the first direction with respect to the plurality of cooling portionsA and the plurality of cooling portionsB. Cooling portionC is disposed between front portionand a cooling portionA located closest to one side in the first direction among the plurality of cooling portionsA.

32 32 32 32 29 The plurality of cooling portionsA and the plurality of cooling portionsB are alternately arranged in the first direction. In the present embodiment, when viewed from above, one pair of cooling portionA and cooling portionB is disposed between cross membersadjacent to each other in the first direction.

32 32 32 11 11 29 32 11 11 29 In the pair of cooling portionsA andB, cooling portionA cools power storage modulelocated on one side in the first direction among two power storage moduleslocated between cross membersadjacent to each other in the first direction. Cooling portionB cools power storage modulelocated on the other side in the first direction among two power storage moduleslocated between cross membersadjacent to each other in the first direction.

30 37 37 32 32 32 32 33 32 37 h h h Cooleris provided with a plurality of openings. The plurality of openingsare provided between two cooling portionsA andB adjacent to each other, between cooling portionA located closest to one side in the first direction and cooling portionC, and between front portionand cooling portionC. Each openingextends in the second direction.

25 26 37 25 37 37 29 26 37 37 29 h h h h h Reinforcing memberand a first protrusionare disposed inside each of the plurality of openings. Specifically, reinforcing memberis disposed inside each openingamong the plurality of openingsthat is located below a corresponding one of the plurality of cross members. First protrusionis disposed inside each openingamong the plurality of openingsthat is located at a position not overlapping with each of the plurality of cross members.

23 22 26 26 26 26 23 26 26 25 26 26 32 32 32 Bottom wall portionof lower casehas a plurality of first protrusionsandC protruding downward. First protrusionsandC are formed by recesses provided in bottom wall portion. The protruding amount of each of first protrusionsandC is smaller than the height of reinforcing memberin the upward-downward direction, but each of first protrusionsandC protrudes more downward than cooling portionsA,B, andC.

38 32 38 26 38 h h h. For example, two holesare provided in cooling portionC. Two holesare arranged side by side in the second direction. First protrusionC is disposed inside each of two holes

3 FIG. 1 FIG. 3 FIG. 4 FIG. 3 FIG. 5 FIG. 3 5 FIGS.to 21 80 is a schematic cross-sectional view of the power storage device, which is taken along a line III-III shown in. Note thatdoes not show upper memberfor convenience of illustration.is a schematic cross-sectional view taken along a line IV-IV shown in.is a plan view showing a positional relation among a bracket for fixing the electric device, the cooler, and the first protrusion in the power storage device according to the embodiment. Referring to, the configuration around electric devicewill be hereinafter described.

3 FIG. 32 80 26 80 26 38 32 32 h As shown in, cooling portionC is disposed below electric device. First protrusionC is disposed at a position overlapping with electric devicein the upward-downward direction. First protrusionC is inserted into holeof cooling portionC and protrudes more downward than cooling portionC.

50 52 26 52 26 50 25 70 Cover memberincludes a second protrusionC that faces first protrusionC in the upward-downward direction and protrudes upward. Second protrusionC is spaced apart from first protrusionC. Cover memberis fastened and fixed to the plurality of reinforcing members, for example, by a fastening member.

25 25 1 25 2 25 1 25 2 25 1 25 25 2 25 1 26 52 25 1 25 2 The plurality of reinforcing membersinclude a first reinforcing memberAand a second reinforcing memberA. First reinforcing memberAand second reinforcing memberAare arranged side by side in the first direction. First reinforcing memberAis located closest to one side in the first direction among the plurality of reinforcing members. Second reinforcing memberAis adjacent to first reinforcing memberAin the first direction. First protrusionC and second protrusionC are disposed between first reinforcing memberAand second reinforcing memberAin the first direction.

50 11 25 1 12 25 2 11 81 80 12 82 80 82 Cover memberincludes a first fixed portion Pfixed to first reinforcing memberAand a second fixed portion Pfixed to second reinforcing memberA. First fixed portion Pis located below a front end portion(the end portion located on one side in the first direction) of electric device. Second fixed portion Pis located below a rear end portion(the end portion located on the other side in the first direction) of electric deviceor located behind and below rear end portion.

81 90 1 82 90 2 11 1 12 2 2 Front end portionis fixed to a bracketat a first fixing position P, and rear end portionis fixed to bracketat a second fixing position P. First fixed portion Pis located below first fixing position P. Second fixed portion Pis located below second fixing position Por located behind and below second fixing position P.

25 251 252 253 50 251 Each reinforcing memberhas a bottom plate portion, a pair of side wall portions, and a pair of flange portions. Cover memberis fastened and fixed to bottom plate portion.

252 251 252 252 252 The pair of side wall portionsare connected to both ends of bottom plate portionin the first direction. The pair of side wall portionsare disposed to face each other in the first direction. The pair of side wall portionsare inclined to be spaced apart from each other in the first direction toward the upward direction. The pair of side wall portionsextend in the second direction.

253 252 253 The pair of flange portionsare connected to upper ends of the pair of side wall portions. The pair of flange portionsare substantially parallel to the first direction.

29 291 292 293 292 291 292 292 Cross memberincludes an upper wall portion, a pair of side wall portions, and a pair of flange portions. The pair of side wall portionsare connected to both ends of upper wall portionin the first direction. The pair of side wall portionsare disposed to face each other in the first direction. The pair of side wall portionsextend in the second direction.

293 292 293 The pair of flange portionsare connected to lower ends of the pair of side wall portions. The pair of flange portionsare substantially parallel to the first direction.

253 293 23 253 293 23 The pair of flange portionsand the pair of flange portionsare disposed in the upward-downward direction with bottom wall portionbeing interposed therebetween. The pair of flange portions, the pair of flange portions, and bottom wall portionare fixed to each other by welding or the like.

3 5 FIGS.to 80 23 23 90 80 23 90 a As shown in, electric deviceis fixed to the inner surfaceside of bottom wall portionby bracket. In the present embodiment, electric deviceis fixed to bottom wall portionby two brackets.

90 90 90 91 92 93 Two bracketsare disposed apart from each other in the second direction. Each bracketextends in the first direction. Each brackethas a ceiling portion, a pair of side wall portions, and a pair of flange portions.

92 91 92 92 The pair of side wall portionsare connected to both ends of ceiling portionin the second direction. The pair of side wall portionsare disposed to face each other in the second direction. The pair of side wall portionsextend in the first direction.

93 92 93 The pair of flange portionsare connected to lower ends of the pair of side wall portions. The pair of flange portionsare substantially parallel to the first direction.

93 93 253 25 23 One-side end portion of flange portionamong the pair of flange portionsthat is located on one side in the first direction is fixed by welding or the like to flange portionof reinforcing memberlocated closest to one side in the first direction in the state in which bottom wall portionis sandwiched therebetween.

93 93 293 29 The other-side end portion of flange portionamong the pair of flange portionsthat is located on the other side in the first direction is fixed by welding or the like to flange portionof cross memberlocated closest to one side in the first direction.

80 90 1 2 80 90 1 2 Electric deviceis fixed to each bracketat first fixing position Pand second fixing position Pspaced apart from each other in the first direction. Electric devicehas a portion spaced apart from bracketbetween first fixing position Pand second fixing position P.

80 80 80 91 90 80 91 80 90 80 81 82 80 b b b b b Specifically, electric devicehas a recessrecessed upward, and a gap is formed between recessand ceiling portionof bracket. In other words, recessis spaced upward from ceiling portion. Recessextends in a planar manner and is formed to extend over two bracketswhen viewed in the first direction. Recessis located between front end portionand rear end portionof electric device.

65 80 23 23 22 80 30 23 65 80 a A heat conduction memberis disposed between at least a part of a bottom surface of electric deviceand inner surfaceof bottom wall portionof lower case. Thereby, electric deviceand coolercome into thermal contact with each other with bottom wall portionand heat conduction memberbeing interposed therebetween, so that electric devicecan be cooled.

80 90 65 23 65 Both end portions of electric devicein the second direction are located outside bracketin the second direction, and heat conduction memberis disposed between bottom wall portionand the above-mentioned both end portions. Examples of heat conduction memberapplicable in this case can be an adhesive containing a silicone resin, an acrylic resin, a urethane resin, an epoxy resin, or the like.

6 FIG. is a cross-sectional view for illustrating a deformation behavior occurring when an upward external force is applied below the electric device in the power storage device according to the embodiment.

6 FIG. 50 52 26 50 26 30 50 30 30 As shown in, when an upward external force is applied to cover memberdue to road surface interference or the like, second protrusionC bumps into first protrusionC, and thereby, the deformation of cover memberis suppressed. At this time, since first protrusionC protrudes more downward than the lower surface of cooler, it is possible to suppress cover memberfrom bumping into cooler, so that it is possible to suppress an external force from being applied to cooler.

50 25 1 25 2 11 12 50 50 11 12 1 Specifically, cover memberis fixed to first reinforcing memberAand second reinforcing memberAby first fixed portion Pand second fixed portion P. Thus, when an upward external force is applied to cover member, cover memberis deformed such that an intermediate portion between first fixed portion Pand second fixed portion Pin the first direction is warped upward as indicated by a dashed line DL.

26 52 11 12 50 At this time, since first protrusionC and second protrusionC are located between first fixed portion Pand second fixed portion Pin the first direction, it is possible to effectively suppress cover memberfrom being deformed to warp upward as described above.

11 81 80 12 82 80 82 11 12 Further, since first fixed portion Pis located below front end portionof electric deviceand second fixed portion Pis located below rear end portionof electric deviceor located behind and below rear end portionthereof, the above-described deformation to be warped upward can be induced between first fixed portion Pand second fixed portion P, as described above.

90 23 25 1 25 2 26 23 2 80 80 90 1 2 23 80 80 b In addition, two bracketsare disposed in a portion of bottom wall portionthat is located above a region extending from first reinforcing memberAto second reinforcing memberA. Thus, even when this portion has high rigidity and first protrusionC is pressed upward, it is possible to suppress this portion of bottom wall portionfrom being deformed to warp upward as indicated by a dashed line DL. Further, even when this portion is deformed to warp, recessof electric deviceis spaced apart from bracketbetween first fixing position Pand second fixing position Pas described above, and thereby, it is possible to suppress the deformed bottom wall portionfrom bumping into electric device, so that it is possible to suppress an impact from being applied to electric device.

26 38 32 26 h In addition, since first protrusionC is inserted into holeprovided in cooling portionC, first protrusionC can be efficiently provided.

7 FIG. 2 FIG. 7 FIG. 7 FIG. 21 11 is a schematic cross-sectional view of the power storage device, which is taken along a line VII-VII shown in. Note thatdoes not show upper memberfor convenience of illustration. Referring to, the structure around power storage modulewill be hereinafter described.

7 FIG. 11 11 11 80 11 11 11 11 11 11 As shown in, the plurality of power storage modulesinclude more than one pair of a first power storage moduleA and a second power storage moduleB on the rear side (the other side in the first direction) of electric device. Note that one or more pairs of first and second power storage modulesA andB should only be provided. First power storage moduleA and second power storage moduleB are adjacent to each other in the first direction. First power storage moduleA and second power storage moduleB are spaced apart from each other in the first direction.

11 11 11 11 First power storage moduleA is disposed on one side in the first direction with respect to second power storage moduleB. Second power storage moduleB is disposed on the other side in the first direction with respect to first power storage moduleA.

29 29 1 29 2 29 1 29 2 23 23 29 1 29 2 29 11 11 29 1 29 2 a The plurality of cross membersinclude a first cross memberAand a second cross memberAthat are spaced apart from each other in the first direction. First cross memberAand second cross memberAare disposed on the inner surfaceside of bottom wall portion. First cross memberAand second cross memberAeach have the same structure as that of cross memberdescribed above. First power storage moduleA and second power storage moduleB are disposed between first cross memberAand second cross memberA.

26 11 11 26 37 30 h First protrusionis disposed between first power storage moduleA and second power storage moduleB when viewed from above. First protrusionis inserted into openingof cooler.

50 52 26 52 26 50 25 25 1 25 2 Cover memberincludes a second protrusionthat faces first protrusionin the upward-downward direction and protrudes upward. Second protrusionis spaced apart from first protrusion. As will be described later, cover memberis fixed to the plurality of reinforcing membersincluding a first bottom reinforcing memberBand a second bottom reinforcing memberB.

25 23 25 1 25 2 23 23 25 1 25 2 25 1 25 2 b The plurality of reinforcing membersreinforce bottom wall portion. First bottom reinforcing memberBand second bottom reinforcing memberBare disposed on outer surfaceof bottom wall portionand spaced apart from each other in the first direction. First bottom reinforcing memberBand second bottom reinforcing memberBhave the same structures as those of first reinforcing memberAand second reinforcing memberA.

29 1 25 1 23 25 1 29 1 First cross memberAand first bottom reinforcing memberBare disposed in the upward-downward direction with bottom wall portionbeing interposed therebetween. In other words, first bottom reinforcing memberBis disposed below first cross memberA.

29 2 25 2 23 25 2 29 2 Second cross memberAand second bottom reinforcing memberBare disposed in the upward-downward direction with bottom wall portionbeing interposed therebetween. In other words, second bottom reinforcing memberBis disposed below second cross memberA.

30 23 22 50 32 11 32 11 Cooleris disposed between bottom wall portionof lower caseand cover member. Cooling portionA cools first power storage moduleA, and cooling portionB cools second power storage moduleB.

8 FIG. 7 FIG. 8 FIG. 11 11 11 11 11 11 b a is an enlarged view of a region surrounded by a line VIII shown in. As shown in, first power storage moduleA has a rear-side corner portionlocated at a lower portion of a rear portion (an end portion located on the other side in the first direction) of first power storage moduleA. Second power storage moduleB has a front-side corner portionlocated at a lower portion of a front portion (an end portion located on one side in the first direction) of second power storage moduleB.

26 261 262 262 261 262 262 262 First protrusionhas a bottom plate portionand a pair of side wall portions. The pair of side wall portionsare connected to both ends of bottom plate portionin the first direction. The pair of side wall portionsare disposed to face each other in the first direction. The pair of side wall portionsare inclined to be spaced apart from each other in the first direction toward the upward direction. The pair of side wall portionsextend in the second direction.

262 26 26 26 26 a b An upper end portion of each of the pair of side wall portionsforms a base portion of first protrusion. First protrusionhas a front-side base portion(one-side base portion located on one side in the first direction) and a rear-side base portion(the other-side base portion located on the other side in the first direction).

26 11 26 11 a b b a Front-side base portionis located at a position overlapping with rear-side corner portionin the upward-downward direction. Rear-side base portionis located at a position overlapping with front-side corner portionin the upward-downward direction.

9 FIG. is a cross-sectional view for illustrating a deformation behavior occurring when an upward external force is applied below the power storage module in the power storage device according to the embodiment.

9 FIG. 50 50 26 50 As shown in, when an upward external force is applied to cover memberdue to road surface interference or the like, cover memberbumps into first protrusion, so that deformation of cover membercan be suppressed.

26 50 26 26 23 26 26 26 11 26 11 26 11 11 26 11 11 a b a b a b b a a b b a First protrusionis pressed upward by cover member, but front-side base portionand rear-side base portioneach have high rigidity, and thus, bottom wall portiondeforms with respect to front-side base portionand rear-side base portionserving as fulcrums. At this time, front-side base portionis located at a position overlapping with rear-side corner portionin the upward-downward direction, and rear-side base portionis located at a position overlapping with front-side corner portionin the upward-downward direction, as described above. Thus, front-side base portioncomes into contact with rear-side corner portionof first power storage moduleA, and rear-side base portioncomes into contact with front-side corner portionof second power storage moduleB.

11 11 11 5 11 11 11 6 11 11 b a In this case, the load transmitted to rear-side corner portionof first power storage moduleA is transmitted to a vertical wall surface (more specifically, a rear surface) of first power storage moduleA as indicated by an arrow AR. The load transmitted to front-side corner portionof second power storage moduleB is transmitted to a vertical wall surface (more specifically, a front surface) of second power storage moduleB as indicated by an arrow AR. Thereby, significant deformations of the bottom surfaces of first and second power storage modulesA andB can be suppressed. Further, since the vertical wall surfaces each have high strength and thus can cushion a high load.

50 52 26 50 26 Since cover memberis provided with second protrusionprotruding toward first protrusion, cover memberreadily bumps into first protrusion. Thereby, the deformation behavior as described above can be effectively induced.

26 30 50 30 30 Further, since first protrusionprotrudes more downward than cooler, it is possible to suppress cover memberfrom bumping into cooler. Thereby, damage to coolercan be suppressed.

29 1 25 1 23 29 2 25 2 23 22 50 25 1 25 2 50 25 1 25 2 25 1 25 2 26 52 25 1 25 2 50 In addition, first cross memberAand first bottom reinforcing memberBare disposed in the upward-downward direction with bottom wall portionbeing interposed therebetween, and second cross memberAand second bottom reinforcing memberBare disposed in the upward-downward direction with bottom wall portionbeing interposed therebetween, so that the rigidity of lower casecan be enhanced. Further, since cover memberis fixed to first bottom reinforcing memberBand second bottom reinforcing memberB, cover membercan be deformed so as to warp upward between first bottom reinforcing memberBand second bottom reinforcing memberBwith respect to first bottom reinforcing memberBand second bottom reinforcing memberBserving as fulcrums. At this time, since first protrusionand second protrusionare located between first bottom reinforcing memberBand second bottom reinforcing memberBin the first direction, it is possible to effectively suppress cover memberfrom being deformed to warp upward as described above.

29 1 29 2 26 29 1 29 2 29 1 29 2 26 60 29 1 26 60 29 2 26 Further, first cross memberAand second cross memberAeach have a convex shape protruding upward, and first protrusionlocated between first cross memberAand second cross memberAhas a convex shape protruding downward. Thus, by utilizing the cross-sectional secondary moments of first cross memberA, second cross memberA, and first protrusion, it is possible to suppress any deformation caused by reaction forces of: inner heat conduction layerlocated between first cross memberAand first protrusionin the first direction; and inner heat conduction layerlocated between second cross memberAand first protrusionin the first direction.

26 11 11 26 11 11 a b b a In the example as described above, front-side base portionoverlaps with rear-side corner portionof first power storage moduleA in the upward-downward direction, and rear-side base portionoverlaps with front-side corner portionof second power storage moduleB in the upward-downward direction, but the present disclosure is not limited thereto.

26 26 26 26 26 11 11 11 11 a b a b b a Even when first protrusionis pressed upward and front-side base portionand rear-side base portionbump into the lower surface of the power storage module, front-side base portionand rear-side base portionmay be located at positions displaced in the first direction from rear-side corner portionof first power storage moduleA and front-side corner portionof second power storage moduleB, respectively, as long as the lower surface of the power storage module is not damaged and the force transmitted to the vertical wall surface of the power storage module is larger than the force transmitted to the lower surface of the power storage module.

Although the embodiments of the present disclosure have been described, it should be understood that the embodiments disclosed herein are illustrative and not restrictive in every respect. The scope of the present disclosure is defined by the terms of the claims, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.